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Registros recuperados : 28 | |
8. | | HELDWEIN, A. B.; NIED, A. H.; SAGGIN, S. L.; BURIOL, G. A.; SCHNEIDER, M. Evaporação d'água em estufas plásticas e sua relação com o ambiente externo: 2- efeito da espécie cultivada e da época do ano nos valores obtidos com minitanques. Revista Brasileira de Agrometeorologia, Santa Maria, v.9, n.1, p. 43-49, 2001. Biblioteca(s): Embrapa Agricultura Digital. |
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10. | | DE BRUIJN, F. J.; HILGERT, U.; STIGTER, J.; SCHNEIDER, M.; MEYER, H.; KLOSSE, U.; PAWLOWSKI, K. Regulation of nitrogen fixation and assimilation genes in the freeliving versus symbiotic state. In: Nitrogen Fixation: Achievements and Objectives, v., p.33-44, 1990. Biblioteca(s): Embrapa Agrobiologia. |
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12. | | SCHNEIDER, M. P.; BOCK, F. C.; GUERRA, C. C.; SILVA, L. L.; FERRÃO, M. F.; GOMES, A. A. Geographical traceability of South Brazilian red wines through fused spectroscopic data. In: REUNIÃO ANUAL DA SOCIEDADE BRASILEIRA DE QUÍMICA, 42., 2019, Joinville. Anais...Eixos Mobilizadores em Química. Joinville, SC: SBQ, 27 a 30 maio 2019. ANA-041. Biblioteca(s): Embrapa Uva e Vinho. |
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14. | | SCHNEIDER, P. R.; FINGER, C. A. G.; FLEIG, F. D.; FLEI, M. J.; STORCK, L.; HOPPE, J. M.; SCHNEIDER, M. V.; GATTO, A. Crescimento inicial do Eucalyptus dunnii Maiden consorciado com zea mays L., na região de Santa Maria-RS. Ciência Florestal, Santa Maria, v. 5, n. 1, p. 171-182, nov. 1995. Biblioteca(s): Embrapa Florestas. |
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15. | | SANTIAN, M.; SCHNEIDER, M. L.; STOCKMANN, I. de S.; DALLA COSTA, F. A.; DALLA COSTA, O. A.; COLDEBELLA, A.; OLIVEIRA, S. E. O. Comportamento de suínos durante o uso de nebulização nas baias de período de descanso. In: JORNADA DE INICIAÇÃO CIENTÍFICA, 10., 2016, Concórdia. Anais... Concórdia: Embrapa Suínos e Aves: UNC, 2017. p. 123-124. JINC. Biblioteca(s): Embrapa Suínos e Aves. |
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16. | | MATSCHULLAT, J.; LIMA, R. M. B. de; FROMM, S. F. von; MARTINS, G. C.; SCHNEIDER, M.; MATHIS, A.; RAMOS, A. M.; PLESSOW, A.; KIBLER, K. Sustainable land-use alternatives in tropical rainforests? Evidence from natural and social sciences. European Geologist, v. 52, p. 5-20, Nov. 2021. Biblioteca(s): Embrapa Amazônia Ocidental. |
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17. | | MATSCHULLAT, J.; MARTINS, G. C.; ENZWEILER, J.; FROMM, S. F. von; LEEUWEN, J. van; LIMA, R. M. B. de; SCHNEIDER, M.; ZURBA, K. What influences upland soil chemistry in the Amazon basin, Brazil? Major, minor and trace elements in the upper rhizosphere. Journal of Geochemical Exploration, v. 211, art. 106433, April 2020. Biblioteca(s): Embrapa Amazônia Ocidental. |
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18. | | GRAÇAS, D. A.; JESUS, E. C.; FILHO, L. C. F.; JUNIOR, R. G.; BARBOSA, M. S.; RAMOS, R. T. J.; LEÃO, T. F.; BARAÚNA, R. A.; SCHNEIDER, M. P.; SILVA, A. Changes in microbial communities along a water column in an Amazonian flooded area Aquatic Science and Technology, v: 1, n. 1, 2013 Biblioteca(s): Embrapa Agrobiologia. |
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19. | | VINCIGUERRA, L. L.; BÖCK, F. C.; SCHNEIDER, M. P.; REIS, N. A. P. C.; SILVA, L. F. da; SOUZA, K. C. M de; GUERRA, C. C.; GOMES, A. de A.; BERGOLD, A. M.; FERRÂO, M. F. Geographical origin authentication of southern Brazilian red wines by means of EEM-pH four-way data modelling coupled with one class classification approach. Food Chemistry, v. 362, n. 130087, 2021. Biblioteca(s): Embrapa Uva e Vinho. |
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20. | | BARBOSA, M. S. R.; COSTA, S. S.; MARCON, D. J.; GRAÇAS, D. A. das; RAMOS, R. T. J.; SCHNEIDER, M. P. C.; CUNHA, E. F. M.; BARAÚNA, R. A.; SILVA, A. L. da C. da. Transcriptomic insights on fruit ripening of two varieties of Amazon açaí palm (Euterpe oleracea Mart.). In: BRAZILIAN CONGRESS OF GENETICS, 68., 2023, Ouro Preto. Paleogenomics: sequencing ancient DNA. Ribeirão Preto: Sociedade Brasileira de Genética, 2023. p. 417. E-book. Biblioteca(s): Embrapa Amazônia Oriental. |
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Registros recuperados : 28 | |
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Registro Completo
Biblioteca(s): |
Embrapa Agricultura Digital; Embrapa Milho e Sorgo. |
Data corrente: |
23/11/2011 |
Data da última atualização: |
28/09/2017 |
Tipo da produção científica: |
Artigo em Periódico Indexado |
Circulação/Nível: |
A - 1 |
Autoria: |
RUIZ, J. C.; D'AFONSECA, V.; SILVA, A.; ALI, A.; PINTO, A. C.; SANTOS, A. R.; ROCHA, A. A. M. C.; LOPES, D. O.; DORELLA, F. A.; PACHECO, L. G. C.; COSTA, M. P.; TURK, M. Z.; SEYFFERT, N.; MORAES, P. M. R. O.; SOARES, S. C.; ALMEIDA, S. S.; CASTRO, T. L. P.; ABREU, V. A. C.; TROST, E.; BAUMBACH, J.; TAUCH, A.; SCHNEIDER, M. P. C.; McCULLOCH, J.; CERDEIRA, L. T.; RAMOS, R. T. J.; ZERLOTINI, A.; DOMINITINI, A.; RESENDE, D. M.; COSER, E. M.; OLIVEIRA, L. M.; PEDROSA, A. L.; VIEIRA, C. U.; GUIMARAES, C. T.; BARTHOLOMEU, D. C.; OLIVEIRA, D. M.; SANTOS, F. R.; RABELO, E. M.; LOBO, F. P.; FRANCO, G. R.; COSTA, A. F.; CASTRO, I. M.; DIAS, S. R. C.; FERRO, J. A.; ORTEGA, J. M.; PAIVA, L. V.; ALMEIDA, J. F.; GOULART, L. R.; FERRO, M. I. T.; CARNEIRO, N. P.; FALCÃO, P. R. K.; GRYNBERG, P.; TEIXEIRA, S. M. R.; BROMMONSCHENKEL, S.; OLIVEIRA, S. C.; MEYER, R.; MOORE, R. J.; MIYOSHI, A.; OLIVEIRA, G. C.; AZEVEDO, V. |
Afiliação: |
CLAUDIA TEIXEIRA GUIMARAES, CNPMS; NEWTON PORTILHO CARNEIRO, CNPMS. |
Título: |
Evidence for reductive genome evolution and lateral acquisition of virulence functions in two Corynebacterium pseudotuberculosis strains. |
Ano de publicação: |
2011 |
Fonte/Imprenta: |
Plos One, San Francisco, v. 6, n. 4, p. 1-16, 2011. |
DOI: |
10.1371/journal.pone.0018551 |
Idioma: |
Inglês |
Conteúdo: |
Background: Corynebacterium pseudotuberculosis, a Gram-positive, facultative intracellular pathogen, is the etiologic agent of the disease known as caseous lymphadenitis (CL). CL mainly affects small ruminants, such as goats and sheep; it also causes infections in humans, though rarely. This species is distributed worldwide, but it has the most serious economic impact in Oceania, Africa and South America. Although C. pseudotuberculosis causes major health and productivity problems for livestock, little is known about the molecular basis of its pathogenicity. Methodology and Findings: We characterized two C. pseudotuberculosis genomes (Cp1002, isolated from goats; and CpC231, isolated from sheep). Analysis of the predicted genomes showed high similarity in genomic architecture, gene content and genetic order. When C. pseudotuberculosis was compared with other Corynebacterium species, it became evident that this pathogenic species has lost numerous genes, resulting in one of the smallest genomes in the genus. Other differences that could be part of the adaptation to pathogenicity include a lower GC content, of about 52%, and a reduced gene repertoire. The C. pseudotuberculosis genome also includes seven putative pathogenicity islands, which contain several classical virulence factors, including genes for fimbrial subunits, adhesion factors, iron uptake and secreted toxins. Additionally, all of the virulence factors in the islands have characteristics that indicate horizontal transfer. Conclusions: These particular genome characteristics of C. pseudotuberculosis, as well as its acquired virulence factors in pathogenicity islands, provide evidence of its lifestyle and of the pathogenicity pathways used by this pathogen in the infection process. All genomes cited in this study are available in the NCBI Genbank database (http://www.ncbi.nlm.nih.gov/genbank/) under accession numbers CP001809 and CP001829. MenosBackground: Corynebacterium pseudotuberculosis, a Gram-positive, facultative intracellular pathogen, is the etiologic agent of the disease known as caseous lymphadenitis (CL). CL mainly affects small ruminants, such as goats and sheep; it also causes infections in humans, though rarely. This species is distributed worldwide, but it has the most serious economic impact in Oceania, Africa and South America. Although C. pseudotuberculosis causes major health and productivity problems for livestock, little is known about the molecular basis of its pathogenicity. Methodology and Findings: We characterized two C. pseudotuberculosis genomes (Cp1002, isolated from goats; and CpC231, isolated from sheep). Analysis of the predicted genomes showed high similarity in genomic architecture, gene content and genetic order. When C. pseudotuberculosis was compared with other Corynebacterium species, it became evident that this pathogenic species has lost numerous genes, resulting in one of the smallest genomes in the genus. Other differences that could be part of the adaptation to pathogenicity include a lower GC content, of about 52%, and a reduced gene repertoire. The C. pseudotuberculosis genome also includes seven putative pathogenicity islands, which contain several classical virulence factors, including genes for fimbrial subunits, adhesion factors, iron uptake and secreted toxins. Additionally, all of the virulence factors in the islands have characteristics that indicate horizontal t... Mostrar Tudo |
Palavras-Chave: |
Análise de genoma; Genoma de C pseudotuberculosis; Ilhas de patogenicidade. |
Thesagro: |
Corynebacterium Pseudotuberculosis; Genética; Patógeno. |
Thesaurus NAL: |
Caseous lymphadenitis; Genome; Pathogenicity. |
Categoria do assunto: |
-- H Saúde e Patologia |
URL: |
https://ainfo.cnptia.embrapa.br/digital/bitstream/item/47474/1/Evidence-reductive.pdf
https://ainfo.cnptia.embrapa.br/digital/bitstream/item/53621/1/journal.pone.0018551.pdf
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Marc: |
LEADER 04503naa a2200937 a 4500 001 1906799 005 2017-09-28 008 2011 bl uuuu u00u1 u #d 024 7 $a10.1371/journal.pone.0018551$2DOI 100 1 $aRUIZ, J. C. 245 $aEvidence for reductive genome evolution and lateral acquisition of virulence functions in two Corynebacterium pseudotuberculosis strains.$h[electronic resource] 260 $c2011 520 $aBackground: Corynebacterium pseudotuberculosis, a Gram-positive, facultative intracellular pathogen, is the etiologic agent of the disease known as caseous lymphadenitis (CL). CL mainly affects small ruminants, such as goats and sheep; it also causes infections in humans, though rarely. This species is distributed worldwide, but it has the most serious economic impact in Oceania, Africa and South America. Although C. pseudotuberculosis causes major health and productivity problems for livestock, little is known about the molecular basis of its pathogenicity. Methodology and Findings: We characterized two C. pseudotuberculosis genomes (Cp1002, isolated from goats; and CpC231, isolated from sheep). Analysis of the predicted genomes showed high similarity in genomic architecture, gene content and genetic order. When C. pseudotuberculosis was compared with other Corynebacterium species, it became evident that this pathogenic species has lost numerous genes, resulting in one of the smallest genomes in the genus. Other differences that could be part of the adaptation to pathogenicity include a lower GC content, of about 52%, and a reduced gene repertoire. The C. pseudotuberculosis genome also includes seven putative pathogenicity islands, which contain several classical virulence factors, including genes for fimbrial subunits, adhesion factors, iron uptake and secreted toxins. Additionally, all of the virulence factors in the islands have characteristics that indicate horizontal transfer. Conclusions: These particular genome characteristics of C. pseudotuberculosis, as well as its acquired virulence factors in pathogenicity islands, provide evidence of its lifestyle and of the pathogenicity pathways used by this pathogen in the infection process. All genomes cited in this study are available in the NCBI Genbank database (http://www.ncbi.nlm.nih.gov/genbank/) under accession numbers CP001809 and CP001829. 650 $aCaseous lymphadenitis 650 $aGenome 650 $aPathogenicity 650 $aCorynebacterium Pseudotuberculosis 650 $aGenética 650 $aPatógeno 653 $aAnálise de genoma 653 $aGenoma de C pseudotuberculosis 653 $aIlhas de patogenicidade 700 1 $aD'AFONSECA, V. 700 1 $aSILVA, A. 700 1 $aALI, A. 700 1 $aPINTO, A. C. 700 1 $aSANTOS, A. R. 700 1 $aROCHA, A. A. M. C. 700 1 $aLOPES, D. O. 700 1 $aDORELLA, F. A. 700 1 $aPACHECO, L. G. C. 700 1 $aCOSTA, M. P. 700 1 $aTURK, M. Z. 700 1 $aSEYFFERT, N. 700 1 $aMORAES, P. M. R. O. 700 1 $aSOARES, S. C. 700 1 $aALMEIDA, S. S. 700 1 $aCASTRO, T. L. P. 700 1 $aABREU, V. A. C. 700 1 $aTROST, E. 700 1 $aBAUMBACH, J. 700 1 $aTAUCH, A. 700 1 $aSCHNEIDER, M. P. C. 700 1 $aMcCULLOCH, J. 700 1 $aCERDEIRA, L. T. 700 1 $aRAMOS, R. T. J. 700 1 $aZERLOTINI, A. 700 1 $aDOMINITINI, A. 700 1 $aRESENDE, D. M. 700 1 $aCOSER, E. M. 700 1 $aOLIVEIRA, L. M. 700 1 $aPEDROSA, A. L. 700 1 $aVIEIRA, C. U. 700 1 $aGUIMARAES, C. T. 700 1 $aBARTHOLOMEU, D. C. 700 1 $aOLIVEIRA, D. M. 700 1 $aSANTOS, F. R. 700 1 $aRABELO, E. M. 700 1 $aLOBO, F. P. 700 1 $aFRANCO, G. R. 700 1 $aCOSTA, A. F. 700 1 $aCASTRO, I. M. 700 1 $aDIAS, S. R. C. 700 1 $aFERRO, J. A. 700 1 $aORTEGA, J. M. 700 1 $aPAIVA, L. V. 700 1 $aALMEIDA, J. F. 700 1 $aGOULART, L. R. 700 1 $aFERRO, M. I. T. 700 1 $aCARNEIRO, N. P. 700 1 $aFALCÃO, P. R. K. 700 1 $aGRYNBERG, P. 700 1 $aTEIXEIRA, S. M. R. 700 1 $aBROMMONSCHENKEL, S. 700 1 $aOLIVEIRA, S. C. 700 1 $aMEYER, R. 700 1 $aMOORE, R. J. 700 1 $aMIYOSHI, A. 700 1 $aOLIVEIRA, G. C. 700 1 $aAZEVEDO, V. 773 $tPlos One, San Francisco$gv. 6, n. 4, p. 1-16, 2011.
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Embrapa Milho e Sorgo (CNPMS) |
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